KR101079084B1 - Method for Transmitting Scheduling Command for Uplink E-DCH in Softer Handover Region - Google Patents

Abstract

The present invention provides a method of transmitting a scheduling command to a user terminal in a mobile communication system including a cell consisting of at least one sector, comprising the steps of: configuring a scheduling command at a base station; A method for transmitting a scheduling command comprising the step of transmitting to a user terminal in an intersectoral handover through a sector, wherein a plurality of sectors are performed when scheduling is performed at only one base station for a UE in a softer handover area. By transmitting the same scheduling command in the UE has an effect that can detect the scheduling command with fewer errors.

E-DCH, Scheduling Commands, TFCS

Description

Method for Transmitting Scheduling Command for Uplink E-DCH in Softer Handover Region} in Softer Handover Region

1 is a flowchart illustrating a scheduling command transmission method according to the present invention.

The present invention relates to a method for transmitting a scheduling command for an uplink enhanced dedicated channel during softer handover, and more particularly, in an uplink enhanced dedicated channel (hereinafter referred to as 'E-DCH'), The present invention relates to a method for transmitting a scheduling command common to user equipment (UE) from each sector during soft handover.

In the current mobile communication technology, scheduling by a base station controller (Node B controlled scheduling), hybrid automatic repeat request (HARQ), and shorter transmission time interval (TTI) for improving uplink performance I consider it).                         

Among the schemes for improving the performance, scheduling by Node B controlled (Node B controlled scheduling) has been performed by a Radio Network Controller (hereinafter, 'RNC') in order to fully utilize uplink capacity. The function is to be performed at the base station (Node B).

According to the related art, the RNC transmits a transport format combination set (TFCS) to a user equipment (UE). Here, TFCS means a set of transport format combinations (hereinafter, 'TFC') that can be selected by the UE.

The UE arranges and manages TFCs constituting TFCS. That is, the TFC that requires more power than the maximum transmit power that can be provided by the UE is excluded from the allowable TFC. However, if the TFC changes to a state requiring power within the maximum transmit power, the TFC can be selected again. Scheduling performed in the RNC is to change the TFC in the RNC if necessary.

On the other hand, scheduling by the base station is to use the uplink radio resources more efficiently by changing the TFCS selectable in the UE, the base station to do this.

When performing the scheduling by the base station, a scheduling command should be transmitted on the downlink. When the UE is in a softer handover area, the UE communicates with several sectors.

Thus, in case of sending scheduling commands in several sectors to a UE in soft handover situation, the scheduling commands generated by each sector may be different, so the UE may not properly combine them and must detect each one. Therefore, there is a possibility of performance deterioration.

In addition, in the case of performing scheduling in one cell, in the case of softer handover, since a channel is relatively poor, performance of detecting a control signal is deteriorated.

SUMMARY OF THE INVENTION An object of the present invention is to provide a scheduling command transmission method that enables a UE to detect a scheduling command with higher performance in detecting a scheduling command transmitted in a plurality of sectors during softer handover.

According to an aspect of the present invention, there is provided a method of transmitting a scheduling command to a user terminal in a mobile communication system including a cell consisting of at least one sector. Sending the same scheduling command to the user terminal in intersectoral handover through the at least one sector.

In addition, the present invention provides a method for transmitting a scheduling command to a user terminal performing a soft handover and a soft handover with a plurality of cells in a mobile communication system including a cell consisting of at least one sector. Constructing a scheduling command and transmitting the configured identical scheduling command to the user terminal through the at least one sector.

The base station Node-B performs backward scheduling in consideration of an uplink channel condition (S11). Scheduling by the base station largely includes rate scheduling and time and rate scheduling.

First, in rate scheduling, during the initial setup period, the RNC transmits information about TFCS to the Node B and the UE. The Node B adjusts the TFCS of the UE step by step as in the case of power control. That is, through the downlink (downlink) control signal, the maximum TFC that can be transmitted by the UE of the TFCS of the UE is adjusted step by step.

For example, assume that there are 100 TFCS of the entire UE, which are arranged in order of transmit power. At this time, if the index of the TFC that the current UE can transmit is 50 times, the base station Node B uses the up / hold / down scheduling command to increase the maximum that the UE can transmit. TFC can be adjusted to 49/50/51. At this time, the UE can transmit data only to the TFC corresponding to the index below the maximum TFC index scheduled by the Node B.

On the other hand, in the time and rate scheduling, unlike the rate scheduling, it is a method of directly informing the appropriate maximum TFC according to the situation without adjusting the maximum TFC step by step. The maximum TFC is also known at the same time.

For example, it is assumed that the total TFCS of the UE is composed of 100 and all are listed in order of transmit power. Even if the maximum TFC that can be transmitted by the current UE is 50, the maximum TFC that can be transmitted in the next time interval by the downlink control signal may be any TFC within the entire TFCS. At this time, according to the rate scheduling scheme, the TFC can be adjusted step by step, while the time and rate scheduling can adjust the TFC at once. Accordingly, the time and rate scheduling scheme is advantageous when the TFC of the UE is to be changed drastically.

According to the present invention, in one uplink enhanced-dedicated channel (E-DCH) for uplink high-speed communication, when one cell is a scheduling providing cell during a softener handover, transmitting a scheduling command transmitted in downlink Provide a method for

The UE in soft handover is communicating with several sectors. If one of the sectors is performing the scheduling, the scheduling command (scheduling command) is sent in that sector. However, if the UE is in a soft handover situation, all sectors are physically present in one Node B, and thus, other sectors other than the scheduling providing sector may be processed through the internal processing of the Node B without special signaling. The same scheduling command may be transmitted (S12). When all sectors of the active set in the softer handover state transmit the scheduling command of the scheduling providing sector, the UE obtains a diversity gain, thereby improving detection performance of the scheduling command.

 When scheduling is performed by only one base station for a UE in the softer handover area, the UE can detect the scheduling command with fewer errors by transmitting the same scheduling command in multiple sectors.

Claims (4)

A method for receiving scheduling information, wherein a terminal receives a plurality of scheduling information from a plurality of sectors of a base station at the time of handover, Receiving the plurality of scheduling information through the downlink from the plurality of sectors at the terminal, wherein the plurality of scheduling information is set by the base station to have the same value as each other; Generating, at the terminal, a single scheduling information by combining values of the plurality of scheduling information with prior knowledge that the plurality of scheduling information is set to have the same value by the base station; And At the terminal, providing the single scheduling information to a layer higher than a physical layer of the base station Including, Wherein the single scheduling information and the plurality of scheduling information are information indicating to change the transmission rate of the terminal by a predetermined amount; How to receive scheduling information. The method of claim 1, And wherein the change indicates a gradual increase or gradual decrease in the transmission rate of the terminal. A method for receiving scheduling information, wherein a terminal receives a plurality of scheduling information from a plurality of sectors of a base station at the time of handover, Receiving the plurality of scheduling information through the downlink from the plurality of sectors at the terminal, wherein the plurality of scheduling information is set by the base station to have the same value as each other; And At the terminal, generating a single scheduling information by combining the values of the plurality of scheduling information with prior knowledge that the plurality of scheduling information is set to have the same value by the base station. Including, Wherein the single scheduling information and the plurality of scheduling information are information indicating to change the transmission rate of the terminal by a predetermined amount; How to receive scheduling information. delete

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